Semiconductor memory device with a voltage down converter stably generating an internal down-converted voltage

1. A semiconductor device comprising: an internal circuit receiving an internal power supply voltage from an internal power supply node; and an internal power supply voltage generator generating the internal power supply voltage to the internal power supply node, the internal power supply voltage having one of plurality of predetermined levels dependent on an operation state of said internal circuit, wherein said internal power supply voltage is fixed.

2. The semiconductor memory device according to claim 1, wherein said internal circuit carries out a predetermined operation in response to a control signal, and the level of the internal power supply voltage is increased after the control signal indicates an activation.

3. The semiconductor memory device according to claim 1, wherein the level of the internal power supply voltage is pulled up during a control signal associated with the operation of said internal circuit indicates an inactivation of the operation.

4. The semiconductor device according to claim 1, wherein said internal power supply voltage generator includes circuitry for setting the internal power supply voltage at said one of the plurality of predetermined levels in response to the operation state of said internal circuit.

5. The semiconductor device according to claim 1, wherein one of a plurality of predetermined levels is a voltage level selected from said plurality of predetermined levels.

6. The semiconductor device according to claim 1, wherein said plurality of predetermined levels are present simultaneously.

7. The semiconductor memory device according to claim 1, wherein the level of the internal power supply voltage is increased before said internal circuit carries out a predetermined operation.

8. The semiconductor memory device according to claim 7, wherein the level of the internal power supply voltage is decreased after said internal circuit carries out the predetermined operation.

9. The semiconductor memory device according to claim 7, wherein a power consumption of said internal circuit brings the internal power supply voltage on downward path.

10. The semiconductor device according to claim 1, wherein said internal power supply voltage generator includes a comparator comparing the internal power supply voltage with a reference voltage, a drive transistor coupled between a power supply and the internal power supply node, and connecting between the power supply and the internal power supply node in response to an output of the comparator, and a control circuit for increasing the level of the internal power supply voltage.

11. The semiconductor device according to claim 10, wherein the reference voltage has a single level.

12. The semiconductor device according to claim 10, wherein said comparator includes (a) a current mirror circuit including first and second current supply nodes, (b) a current source, (c) a first transistor coupled between the first current supply node and the current source, and having a gate receiving the reference voltage, (d) a second transistor coupled between the second current supply node and the current source, and said control circuit includes third and fourth transistors serially coupled between the first current supply node and the current source in parallel to the first transistor, the third transistor having a gate receiving the reference voltage and the fourth transistor having a gate receiving a signal associated with the operation state.

13. The semiconductor memory device according to claim 10, wherein said comparator includes an input receiving the reference voltage, said internal power supply voltage generator further includes a reference voltage generator generating a plurality of reference voltages differing in voltage level from each other, said control circuit includes a selector for applying either one of the plurality of reference voltages generated by said reference voltage generator to the input of said comparator.

14. The semiconductor memory device according to claim 10, wherein said control circuit includes a first transistor coupled between said power supply and the internal power supply node, and having a gate receiving a control signal associated with the operation state of said internal circuit, and second and third transistors serially coupled between a drain of said driver transistor and the internal power supply node, wherein said driver transistor is coupled to the internal power supply node via the second and third transistors.

15. A semiconductor device comprising: an internal circuit receiving an internal power supply voltage from an internal power supply node; and an internal power supply voltage generator generating the internal power supply voltage to the internal power supply node, the internal power supply voltage having one of a plurality of predetermined levels dependent on an operation state of said internal circuit, wherein the level of the internal power supply voltage is increased before said internal circuit carries out a predetermined operation.

16. The semiconductor memory device according to claim 15, wherein the level of the internal power supply voltage is decreased after said internal circuit carries out the predetermined operation.

17. The semiconductor memory device according to claim 15, wherein power consumption said internal circuit reduces the internal power supply voltage.

18. The semiconductor device according to claim 15, wherein said internal power supply voltage generator includes circuitry for setting the internal power supply voltage at said one of the plurality of predetermined levels in response to the operation state of said internal circuit.

19. The semiconductor device according to claim 15, wherein said one of a plurality of predetermined levels is a voltage level selected from said plurality of predetermined levels.

20. The semiconductor device according to claim 15, wherein said plurality of predetermined levels are present simultaneously.